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昆仑山口西8.1级地震前青藏块体边界断层异常活动 总被引:5,自引:0,他引:5
系统分析了青藏块体边界断层的形变资料,研究了断层活动的动态过程及空间分布。结果表明,昆仑山口西8.1级地震前孕震影响范围达到青藏块体的周边地区;发震断层所在的构造带震前断层活动最为剧烈;加强对构造块体断层整体活动的宏观动态比较和分析,有助于判定未来强震发生的危险地段;震后应力将转移并集中到西秦岭构造带及其邻近地区。 相似文献
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根据野外调查得到的地震破裂以及同震位错分布,利用三维有限元模型研究了昆仑山口西MS8.1地震的同震位移场和同震应力场的分布,讨论了震后地震活动与同震应力场变化的关系。模拟的MS8.1地震同震位移场显示,东昆仑断裂带南北两侧的同震位移衰减程度存在差异,断裂带南部的同震位移衰减大于北部同震位移的衰减;同震应力场研究结果则表明,MS8.1地震的同震最大剪切应力主要集中在东昆仑断裂带的周边地区,最大剪切应力等值线沿断裂带密集分布,形成了高梯度带。MS8.1地震的发生使青藏活动地块区的地壳应力发生了剧烈的变化,可能导致研究区的地壳应力场得到松弛。库伦破裂应力的研究表明,昆仑山地震对其后发生的5次强余震有一定的触发作用,昆仑山口西MS8.1地震可能也触发了2003年的德令哈6.6级地震 相似文献
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本文以沿山西断陷带所布设的GPS监测网的11期复测资料(1996—2006)为基础,在统一的参考基准和相同的模式下进行了计算处理。结果发现:①以昆仑山口西8.1级地震为时间界限,其地震前后的运动具有一定的差异性,其具体表现为震前较震后东或北东东向快;②震前运动的非线性特征比较明显,尤其是地震发生的前两年,震后运动的线性特性比较明显;③统计显示震前运动非线性度除个别点外均大于震后。这些现象与该地震的孕发过程与机理上所表现的运动形式相吻合,虽然计算结果中不排除诸如参考基准的框动影响,但完全归于这方面的扰动似乎也不客观,所以这可能预示着强震有时的影响范围会很大,同时也为认知某些强震发生前的远场场兆提供了一种可能的机会。 相似文献
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昆仑山口西8.1级地震引起的地下流体远场响应研究 总被引:2,自引:0,他引:2
通过对2001年11月14日中国西部昆仑山口西8.1级地震引起的川滇块体内四川地区地下流体远场响应的分析研究,得到了地下流体在四川地区表现出的远震响应的分区特征.探讨了四川地区地下流体远场响应与区域构造、活动断裂以及断裂带间相互作用和昆仑山口西8.1级地震远场构造的相互联系,分析了四川地区地下流体远场响应表现出的对远震的孕震、震时和震后响应的阶段性特征,认为地下流体远场响应所包含的远震"孕震响应"、"震时响应"和"震后响应",正是昆仑山口西8.1级地震在孕育-发展-发生的全过程中在震源外的远场反映. 相似文献
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青藏高原中北部的巴颜喀喇地块是近年来强震最为活跃的地区,自1997年以来在地块周围发生了一系列7级以上地震.2014年于田MS7.3级地震就发生在该地块西边界附近的硝尔库勒盆地南缘,该区是阿尔金断裂、康西瓦断裂和东昆仑断裂等多组不同走向大型走滑活动断裂带的交汇部位,不同断裂走向的突然转变及滑动速率差异使该地区形成局部的拉张应力状态,发育了多条NE和近SN向的左旋正断裂. 通过余震分布、震源机制解结果等资料分析,认为此次地震的发震构造为阿尔金断裂西南端的一条次级断裂——硝尔库勒断裂,地震破裂特征为左旋走滑兼正断性质. 在巴颜喀喇地块这一轮的强震活动中,其北边界和东边界都显示块体向东挤出约7 m的位移量,但块体西边界产生的伸展量明显与整个块体向东的位移量不协调,2014年于田MS7.3级地震是巴颜喀喇地块向东挤出的构造响应和应变调整.模拟结果显示阿尔金主断裂上的库仑应力有所增加,东昆仑—柴达木地块可能为下一个强震活跃区,特别是阿尔金断裂的中西段,是今后应该重点关注和监视的地区. 相似文献
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《高原地震》2002,(4)
第 一 期序言陈铁流 (1)…………………………………………………………………………………昆仑山口西 8 1级地震主要异常及预报过程反思马文静 (2 )………………………………昆仑山口西 8 1级地震应急工作概况及震后有关问题的思考哈辉 (11)…………………昆仑山口西 8 1级地震地表破裂的类型与性质王赞军 ,党光明 ,张瑞斌 ,等 (17)…………东昆仑断裂带强震构造条件研究张瑞斌 ,张晓梅 ,王赞军 ,等 (2 6 )…………………………昆仑山口西 8 1级巨震后欧亚带和中国大陆及云南地震趋势研究石绍先 ,曹刻 (32 )……昆仑山口西 8 1级地震前活… 相似文献
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昆仑山口西8.1级地震后欧亚带和中国大陆及云南地震趋势研究 总被引:1,自引:0,他引:1
分析研究了2001年11月14日昆仑山口西8.1级巨震对欧亚地震带、中国大陆及云南未来地震趋势的影响,指出巨震后10-20年欧亚带可能处于巨震活跃时段,其间可能发生多次巨震;同期中国大陆相应处于地震活跃期,大陆西部有发生多次7.0级以上大震的可能;受欧亚带大震活动过程及巨震调整影响,未来1-3年云南省可能进入新的活跃期,6-7级强震危险性增加。 相似文献
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IntroductionSituated in the southeastern part of Eurasia Plate and surrounded by the India Plate, Eurasia Plate, Pacific Plate and Philippine Sea Plate, Chinese mainland especially the area of Qinghai-Xizang (Qingzang) Plateau and the south-north tectonic zone is the area with the most intensive neotectonic deformation. The main component of tectonic activity in Chinese mainland is active blocks. Therefore, it is quite important to study active blocks in the research of tectonic activit… 相似文献
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划分大陆活动地块的重要标志之一是它们在地壳结构间的差异。大陆不同地块具有不同的地壳结构特征。这些结构和构造上的不同反映了它们在地壳内部的变形特征和动力过程的差异。文中利用深地震宽角反射 /折射剖面的结果 ,讨论了青藏高原东北缘东昆仑巴颜喀拉地块、鄂尔多斯地块和华北地块唐山震区地壳结构的差异。它们分别是变形强烈的活动地块、内部变形小相对稳定的地块和现代发生过强震的活动地块。在地壳结构上它们之间的差别是明显的。这些差异表现在地壳的分层性质、上地壳和下地壳的结构、地壳结构的不均匀尺度、壳 /幔分界的性质、壳内低速层的分布、地壳界面、特别是莫霍面的构造形态等方面 相似文献
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板块运动是地壳和上地幔变形的主要动力来源之一。因为只有地壳变形能被直接观测到,所以将上地壳变形场与下地壳和上地幔变形场比较是研究壳幔运动耦合作用的主要方法之一。利用中国大陆GPS观测结果,结合第四纪活动断层和由20世纪以来发生的地震资料反演获得的地球表层的水平应变率场,并将相关结果与Pn波各向异性及剪切波分裂的快波方向相比较,探讨中国大陆壳幔运动耦合作用。结果发现,总体来看活动性强的构造单元,其深部上地幔塑性剪切带的展布与上地壳脆性剪切带的方位有较大的差异;反之,活动性弱的构造单元,差异较小。活动构造单元其上地壳与下地壳—上地幔之间构造变形活动差异较大的原因,可能是在这个部位上、下地壳之间构造活动有一定程度的解耦,使下地壳以上部分的活动与其下“大地幔流”的运动趋势发生差异,从而产生构造应变能积累 相似文献
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Upper crustal deformation characteristics in the northeastern Tibetan Plateau and its adjacent areas revealed by GNSS and anisotropy data 
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下载免费PDF全文 The northeastern part of the Tibetan Plateau is a region where different tectonic blocks collide and intersect, and large earthquakes are frequent. Global Navigation Satellite System (GNSS) observations show that tectonic deformation in this region is strong and manifests as non-uniform deformation associated with tectonic features. S-wave splitting studies of near-field seismic data show that seismic anisotropy parameters can also reveal the upper crustal medium deformation beneath the reporting station. In this paper, we summarize the surface deformation from GNSS observations and crustal deformation from seismic anisotropy data in the northeastern Tibetan Plateau. By comparing the principal compressive strain direction with the fast S-wave polarization direction of near-field S-wave splitting, we analyzed deformation and its differences in surface and upper crustal media in the northeastern Tibetan Plateau and adjacent areas. The principal compressive strain direction derived from GNSS is generally consistent with the polarization direction of fast S-waves, but there are also local tectonic regions with large differences between them, which reflect the different deformation mechanisms of regional upper crustal media. The combination of GNSS and seismic anisotropy data can reveal the depth variation characteristics of crustal deformation and deepen understanding of three-dimensional crustal deformation and the deep dynamical mechanisms underlying it. it. 相似文献
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We obtain the preliminary result of crustal deformation velocity field for the Chinese con-tinent by analyzing GPS data from the Crustal Motion Observation Network of China (CMONOC), particularly the data from the regional networks of CMONOC observed in 1999 and 2001. We de-lineate 9 tectonically active blocks and 2 broadly distributed deformation zones out of a denseGPS velocity field, and derive block motion Euler poles for the blocks and their relative motionrates. Our result reveals that there are 3 categories of deformation patterns in the Chinese conti-nent. The first category, associated with the interior of the Tibetan Plateau and the Tianshan oro-genic belt, shows broadly distributed deformation within the regions. The third category, associatedwith the Tarim Basin and the region east of the north-south seismic belt of China, shows block-likemotion, with deformation accommodated along the block boundaries only. The second category, mainly associated with the borderland of the Tibetan Plateau, such as the Qaidam, Qilian, Xining(in eastern Qinghai), and the Diamond-shaped (in western Sichuan and Yunnan) blocks, has thedeformation pattern between the first and the third, i.e. these regions appear to deform block-like,but with smaller sizes and less strength for the blocks. Based on the analysis of the lithosphericstructures and the deformation patterns of the regions above, we come to the inference that thedeformation modes of the Chinese continental crust are mainly controlled by the crustal structure.The crust of the eastern China and the Tarim Basin is mechanically strong, and its deformationtakes the form of relative motion between rigid blocks. On the other hand, the northward indentation of the Indian plate into the Asia continent has created the uplift of the Tibetan Plateau and the Tianshan Mountains, thickened their crust, and raised the temperature in the crust. The lower crust thus has become ductile, evidenced in low seismic velocity and high electric conductivity observed. The brittle part of the crust, driven by the visco-plastic flow of the lower crust, deforms extensively at all scales. The regions of the second category located at the borderland of the Tibetan Plateau are at the transition zone between the regions of the first and the third categories in terms of the crustal structure. Driven by the lateral boundary forces, their deformation style is also between the two, in the form of block motion and deformation with smaller blocks and less internal strength. 相似文献
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活动构造是现今大陆地壳变形的重要反映。文中对发育于中国大陆及其邻区的活断层资料进行了系统的收集和分析整理 ,并结合活断层定量研究对主要活断层做出了较为粗略的分类。在此基础上 ,借助改进的Haines方法 (即双三次样条函数 ) ,根据中国大陆及其邻区的主要活断层资料 ,推算得出将地壳变形看作连续变形情况下的中国大陆现今地壳变形的应变率场和速度场模型。模型与现今GPS观测结果可以较好地吻合。文中还针对模型计算结果对中国大陆各区的运动矢量变化特征进行了分析 ,并通过与GPS观测结果的比较 ,定量估算出次级断裂在地壳变形中所产生的影响 相似文献
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On the basis of distribution of active fault and regional rheological structure, a three-dimensional finite element model of Sichuan-Yunnan region, China, is constructed to simulate contemporary crustal motion and stress distri- bution and discuss the dynamic mechanism of crustal motion and deformation in the Sichuan-Yunnan region. Lin- ear Maxwell visco-elastic model is applied, which includes the active fault zones, the elastic upper crust and vis- cous lower crust and upper mantle. Four different models with different boundary conditions and deep structure are calculated. Some conclusions are drawn through comparison. Firstly, the crustal rotation about the eastern syntaxis of the Himalaya in the Sicuan-Yunnan region may be controlled by the special dynamic boundary condition. The drag force of the lower-crust on the upper crust is not negligible. At the same time, the main active fault zones play an important role in the contemporary crustal motion and deformation in Sichuan-Yunnan region. 相似文献
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A numerical method of viscoelastic finite element coupled with spring-block model is developed to study temporal processes from the slow tectonic motion of large-scale crust to the rapid failure of small-scale faults. Our modeling demonstrates that the motion of crustal blocks is driven by forces from tectonic plate boundaries, and the deformation is distributed on faults for the stress accumulating. The coupling model generates earthquake sequences that display a magnitude-frequency scaling consistent with Gutenberg-Richter law. The frictional heterogeneities affect earthquakes occurrence and stresses distribution of crustal blocks. Rupture of earthquakes starts at the nucleation node, and propagates bilaterally along faults with the stress triggering, release and redistribution. The failure of faults releases part of crustal stresses, the stress state of crustal blocks near fault is affected by the rupture of local segments on the fault, and the stress state of crustal blocks far away from the fault is controlled by the seismic activity of the whole fault. 相似文献